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The Geochemistry of Aubrites: Investigating Reduced Parent Bodies
[摘要] The aubrites (~30 known meteorites) are a unique group of differentiated meteorites that formed on asteroids with oxygen fugacities (ƒO2) from ~2 to ~6 log units below the iron-wüstite buffer [1–2]. At these highly reduced conditions, elements deviate from the geochemical behavior exhibited at terrestrial ƒO2, forming FeO-poor silicates, Si-bearing metals, and exotic sulfides [3]. Here we examine the 3D mineralogy and the geochemistry of fourteen aubrites, including mineral major element compositions, bulk-rock compositions, and oxygen isotopic compositions to understand their formation and evolution at extreme ƒO2 conditions. While previous studies have described the petrology and 2D modal abundances of aubrites, this work investigates the 3D modal mineralogies of silicate, metal, and sulfide phases in aubrite samples, which are then com-pared to the available 2D data. We utilize X-ray computed tomography (XCT) to non-destructively analyze the distribution and abundances of mineral phases in aubrites and locate composite clasts of sulfide grains for future analysis.
[发布日期] 2019-03-18 [发布机构] 
[效力级别]  [学科分类] 天文学(综合)
[关键词] ABUNDANCE;ACHONDRITES;ASTEROIDS;BRECCIA;GEOCHEMISTRY;METEORITES;METEORITIC COMPOSITION;MINERALOGY;OXYGEN;ROCKS;SILICATES;SULFIDES;TOMOGRAPHY [时效性] 
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